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Efficiency and Robustness of Rosenbaum's Regression (Un)-Adjusted Rank-based Estimator in Randomized Experiments (2111.15524v4)

Published 30 Nov 2021 in stat.ME, math.ST, and stat.TH

Abstract: Mean-based estimators of the causal effect in a completely randomized experiment may behave poorly if the potential outcomes have a heavy-tail, or contain outliers. We study an alternative estimator by Rosenbaum that estimates the constant additive treatment effect by inverting a randomization test using ranks. By investigating the breakdown point and asymptotic relative efficiency of this rank-based estimator, we show that it is provably robust against outliers and heavy-tailed potential outcomes, and has asymptotic variance at most 1.16 times that of the difference-in-means estimator (and much smaller when the potential outcomes are not light-tailed). We further derive a consistent estimator of the asymptotic standard error for Rosenbaum's estimator which yields a readily computable confidence interval for the treatment effect. We also study a regression adjusted version of Rosenbaum's estimator to incorporate additional covariate information in randomization inference. We prove gain in efficiency by this regression adjustment method under a linear regression model. We illustrate through synthetic and real data that, unlike the mean-based estimators, these rank-based estimators (both unadjusted or regression adjusted) are efficient and robust against heavy-tailed distributions, contamination, and model misspecification. Finally, we initiate the study of Rosenbaum's estimator when the constant treatment effect assumption may be violated.

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